• idoxuridine: lid and ocular edema, corneal clouding, punctate defects of epithelium. • Inflamase™ Mild or Forte (contains prednisolone; see corticosteroid, topical). • Iopidine™: allergic response, elevation of upper lid, crusting of lid, blepharitis, lid swelling, discharge, tearing, conjunctival whitening, dryness, dry eye, conjunctival petechia, congested blood vessels, conjunctivitis, conjunctival follicles, conjunctival edema, mydriasis, keratitis, corneal staining, corneal erosion, corneal infiltrate. • Isopto Cetamid™: conjunctivitis, congestion of conjunctival blood vessels, secondary infections. • ketorolac tromethamine: allergic reaction, superficial ocular infections, superficial ker- atitis. • Lacrisert™: lid edema, stickiness or matting of lashes, redness, corneal abrasion from improper insertion technique. • latanoprost: lid swelling, lid redness, lid crusting, tearing, dry eye, punctate epithelial ker- atitis, iris pigmentation. • levobunolol: ptosis, blepharoconjunctivitis, keratitis. • levocabastine: rash, lid edema, dry eye, redness, tearing, discharge. • levofloxacin: lid swelling, dry eye • Livostin™: rash, lid edema, dry eye, redness, tearing, discharge • lodoxamide: blepharitis, tearing, discharge, chemosis, congested blood vessels, dry eye, crystalline deposits, corneal erosion, corneal ulcer, corneal abrasion, keratopathy, keratitis, cells in anterior chamber. • Lotemax™: lid redness, tearing, discharge, dry eye, redness, secondary ocular infection, keratoconjunctivitis, posterior subcapsular cataract formation, perforation of the globe. • loteprednol: lid redness, tearing, discharge, dry eye, redness, secondary ocular infection, keratoconjunctivitis, posterior subcapsular cataract formation, perforation of the globe. • Lumigan™: increase in skin pigmentation, lid redness, increased eyelash growth, eyelash darkening, blepharitis, discharge, tearing, dry eye, redness, conjunctival swelling, superfi- cial punctate keratopathy, increase in iris pigmentation, iritis, cataract. • Macugen™ injection: discharge, conjunctival hemorrhage, corneal edema, keratitis, endophthalmitis, anterior chamber inflammation, cataract. • Maxitrol™ (see antibiotics, topical; contains dexamethasone, see corticosteroid, topical) • medrysone (see corticosteroid, topical). • metipranolol: dermatitis, blepharitis, tearing, conjunctivitis. • moxifloxacin: tearing, discharge, dry eye, redness, conjunctivitis, subconjunctival hemor- rhage, keratitis. • Muro 128™: redness, swelling. • naphazoline: redness (overuse). • Naphcon-A™: redness (overuse), dilated pupil. • Natacyn™: conjunctival chemosis, redness. • natamycin: conjunctival chemosis, redness. • neomycin: allergic reactions, follicular conjunctivitis, keratitis (see also antibiotic, topical) • Neosporin™ (see antibiotic, topical). • Neo-Synephrine™: angle closure, subconjunctival hemorrhage, mydriasis. • Ocufen™: increased tendency to bleed if used following surgery, subconjunctival hemor- rhage, hyphema, iritis. • Ocuflox™: redness, tearing, dryness. 100 Chapter 6 • Ocupress™: ptosis, tearing, congestion of conjunctival blood vessels, conjunctival edema, corneal staining, keratitis. • ofloxacin: redness, tearing, dryness. • olopatadine: lid edema, dry eye, keratitis. • Opticrom™: periocular dryness, periocular puffiness, hordeola, tearing, conjunctival injection. • OptiPranolol™: dermatitis, blepharitis, tearing, conjunctivitis. • Optivar™: conjunctivitis. • Patanol™: lid edema, dry eye, keratitis. • pheniramine: redness (overuse), dilated pupil. • phenylephrine: angle closure, subconjunctival hemorrhage, mydriasis. • Phospholine Iodide™: blepharospasm, tearing, conjunctival thickening, redness, miosis, iritis, iris cysts, lens opacities. • pilocarpine: redness, miosis, lens opacity. • Pilopine™ gel (see also pilocarpine): corneal haze. • Poly-Pred™ (see antibiotic, topical; contains prednisolone, see corticosteroid, topical). • Polysporin™ (see antibiotic, topical). • Polytrim™ (see antibiotic, topical). • Pred Forte™ (contains prednisolone, see corticosteroid, topical). • Pred-G™ (contains prednisolone, see corticosteroid, topical; see also gentamicin). • Pred Mild™ (contains prednisolone; see corticosteroid, topical). • prednisolone (see corticosteroid, topical). • preservatives: allergic reactions, corneal opacity, keratitis. • Propine™: angle closure, redness, conjunctival deposits, follicular conjunctivitis, mydria- sis, keratitis, corneal deposits. • Quixin™: lid swelling, dry eye. • Rescula™: lengthening/decreased length of lashes, increased number of lashes, ptosis, blepharitis, pigmentation of eyelids, redness, dry eye, discharge, conjunctivitis, keratitis, corneal edema, corneal opacity, iritis, cataract. • Restasis™: redness, discharge, tearing. • rimexolone (see corticosteroid, topical). • sodium chloride: redness, swelling. • sulfacetamide (topical; a sulfonamide): conjunctivitis, congestion of conjunctival blood vessels, secondary infections. • sulfonamide (topical): allergic reaction, secondary infections. • tetrahydrozoline: redness (overuse), dilated pupil. • timolol: ptosis, lid erythema, blepharitis, conjunctival injection, dry eye, corneal staining, keratitis, cataract. • Timoptic™ (see timolol). • TobraDex™ (see antibiotic, topical; contains dexamethasone, see corticosteroid, topical). • Tobrex™ (see antibiotic, topical). • tobramycin: lid swelling, conjunctival erythema (see also antibiotic, topical). • Travatan™: blepharitis, discharge, tearing, dry eye, redness, subconjunctival hemorrhage, conjunctivitis, keratitis, iris discoloration, cell or flare, cataract. • travoprost: blepharitis, discharge, tearing, dry eye, redness, subconjunctival hemorrhage, conjunctivitis, keratitis, iris discoloration, cell or flare, cataract. The Problematic Examination 101 • trifluridine: palpebral edema, congested blood vessels, dry eye, superficial punctate ker- atopathy, epithelial keratopathy, stromal edema. • trimethoprim (see antibiotic, topical). • Trusopt™: rash, tearing, dryness, superficial punctate keratopathy • Vasocidin™ (see sulfacetamide; contains prednisolone, see corticosteroid, topical). • Vasocon™: redness (overuse). • Vasocon-A™: redness (overuse). • Vexol™: (see corticosteroid, topical). • Vigamox™: tearing, discharge, dry eye, redness, conjunctivitis, subconjunctival hemor- rhage, keratitis. • Viroptic™: palpebral edema, congested blood vessels, dry eye, superficial punctate ker- atopathy, epithelial keratopathy, stromal edema. • Visine™ (original): redness (overuse), dilated pupil. • Visudyne™: cataract. • Vitrasert™: vitreous implant: keratopathy, corneal dellen, shallow chamber, angle clo- sure, hyphema, cell & flare, synechia, cataract/lens opacities, pellet extrusion, endoph- thalmitis. • Voltaren™: keratitis, iritis, slowed or delayed healing, hyphema or other bleeding if used postoperatively. • Xalatan™: Lid swelling, lid redness, lid crusting, tearing, dry eye, punctate epithelial ker- atitis, iris pigmentation • Zaditor™: rash, discharge, dry eye, conjunctivitis, keratitis, mydriasis. • Zymar™: lid swelling, tearing, dry eye, discharge, redness, conjunctivitis, conjunctival hemorrhage, keratitis. 102 Chapter 6 KEY POINTS The Postoperative Eye Chapter 7 • The detection of infection is one of the main elements of the postoperative slit lamp exam. • Slit lamp findings of infection in any structure or tissue include injection, edema, and purulent discharge. • The slit lamp is also key in identifying allergic and inflammato- ry reactions. Findings in Infection The slit lamp examination following any type of ocular surgery is mainly performed to detect the presence of infection as early as possible. Signs of infection (in any structure or tissue) are redness (injection), swelling (edema), and purulent discharge. The patient may complain of ten- derness and pain. External tissue may be warm to the touch. Endophthalmitis is the most serious complication of infection following any penetrating surgery or injury. This condition is an infection of the internal ocular tissues and can destroy the eye in a short period of time. Worse yet, endophthalmitis can trigger sympathetic ophthalmia, a situation in which the other eye may also be lost. Slit lamp signs of endophthalmitis include post- operative inflammation that is exaggerated beyond what would normally be expected. In addition, watch for lid edema and spasms, redness, conjunctival chemosis, corneal edema, and a marked anterior chamber reaction that may include an hypopyon. The patient may complain of intense discomfort and light sensitivity. (See Chapter 5 for descriptions of separate findings.) Reactions to Medication In addition to monitoring for signs of impending infection, the slit lamp is invaluable in pick- ing up evidence of contact allergies. Such reactions can occur not only from medications but also from other contactants, such as suture material and tape. Signs of an allergic reaction include red- ness, rash, swelling, tissue sloughing (manifested as keratitis in the cornea), and tearing. The patient may complain of itching or discomfort when drops are instilled. The components of any medication may cause side effects besides allergic reactions. Consult Chapter 6 for slit lamp findings pertinent to the medicine that your patient is taking. Oculoplastics Lid Surgery Following any type of lid surgery, it is common for the involved area to be swollen (1+ to 2+). Bruising may be extensive and should be rated and noted in the patient’s chart. Redness, if present, should be slight. Evaluate the wound for healing, discharge, gap, and broken sutures. Fluorescein should be instilled to evaluate the cornea for any abrasions that may have occurred during or after the procedure. Dry spots or keratitis on the lower third of the cornea may indicate incomplete lid clo- sure. As the wound heals, continue to evaluate for broken sutures. Be on the alert for irregular or excessive scarring. Lid surgery that involves the lid margin may affect lash growth, so watch for trichiasis. In addition, continue to evaluate for corneal staining. Lid position should be noted as well, especially after surgery involving the levator muscle. Watch for entropion, ectropion, incomplete closure, etc. If the surgery was to remove a growth, monitor for recurrence. 104 Chapter 7 OphA OphA OphT Lacrimal Procedures The three lacrimal procedures we will be concerned with here are probing, intubation, and dacryocystorhinostomy (DCR). Following any of these procedures, there may be some mild eye- lid swelling and redness as well as slight discharge. Check the cornea for abrasions that may have occurred during the procedure. Grade any tearing that is present. If intubation was done, the clear tube may be seen running from the upper to the lower punctum. The tube should run directly from one punctum to the other without a loop. There should not be an anterior chamber reaction. If a DCR involved an external incision, check the site for swelling and broken sutures. Enucleation After an eye has been enucleated, 1+ to 2+ lid swelling is normal. If the patient is unable to open the lids, gently lift the upper lid. A clear plastic conformer should be overlying the socket. The conjunctiva will be edematous (2+) and may be very injected (it may look like a piece of raw meat). Sutures will be visible. There should not be any conjunctiva or other material prolapsing between these stitches. A mild mucus (nonpurulent) discharge is normal. As the eye heals, lid and conjunctival edema dissipates. The socket takes on a more pinkish- red color that matches the color of the bulbar conjunctiva. A very slight discharge may persist due to the glands in the remaining conjunctiva; the tissue should be moist. The conformer is discon- tinued when the socket is healed; at this point the patient is fit with a prostheses. Extraocular Muscles The main slit lamp findings after extraocular muscle surgery are subconjunctival hemorrhage and conjunctival injection. There may be exposed sutures in the conjunctiva, which may account for some of the redness. Make a note of any conjunctival wound gape. A very mild mucus dis- charge is normal. The appearance of choroidal pigment is abnormal and indicates a scleral per- foration. Over time, watch for the development of a dellen. Check the cornea for any abrasion that may have occurred during the procedure. Cornea Corneal Transplant During the early postoperative period following a corneal transplant, a careful slit lamp exam is essential (Figure 7-1). The patient’s epithelium will initially look irregular and may frequently be missing. The cornea will look swollen and probably have folds (generally 2+ to 3+) in the stro- ma. The junction of the donor and recipient bed will appear hazy and lumpy (there is often 1+ to 2+ swelling at the junction site). The anterior chamber may be somewhat shallow but should not be flat. It may be difficult to visualize the anterior chamber through the fresh graft, but an evalu- ation of cell and flare should be performed on each visit. Initially, it is common to see 2+ to 3+ cells and flare. The sutures should be evaluated to ensure that none are broken. Broken sutures should be identified by referring to the cornea as a clock dial. The Postoperative Eye 105 Many physicians will not want topical fluorescein instilled until they have examined the patient. If the epithelium has not healed, the dye may absorb into the stroma, making it impossi- ble to evaluate the extent of corneal healing and anterior chamber reaction. Fluorescein needs to be instilled, however, to check for leaking in the early postoperative course. To evaluate leakage, place a drop of fluorescein into the eye. Instruct the patient to blink once, and then keep the eye open while you observe through the slit lamp. If there is fluid (aqueous) exiting the eye, you will see a tiny clear stream where the fluid is flushing away the stain. Have the patient blink and hold again. If there is a real leak, the stream will reappear. Such leaking indicates wound gap; this is noted as a positive Seidel sign. If there is no leakage, this is recorded as a negative Seidel sign. As the eye heals, the cornea will gradually take on a normal appearance. Folds will diminish, as will edematous haze. The scar will turn gray, and the graft itself, inside the junction between graft and host, should become clear and thin. The anterior chamber should be more easily visualized. In addition to infection, the corneal transplant patient must be monitored for rejection. Rejec- tion can occur right after surgery or months (or even years) later. The chief things to look for are corneal edema or haze and the appearance of inflammation in the anterior chamber. Thus, once the eye begins to heal, any increase in cells or flare should be considered as early signs of rejec- tion. The endothelium should be examined for any signs of keratitic precipitates or a linear bor- der (rejection line) of whitish or pigmented opacities running through the graft. The epithelium may become ragged, indicating an epithelial rejection. Epithelial toxicity to topical medication often occurs and presents as punctate keratopathy. Also, any increase in tearing, injection, or cil- iary flush at this point can indicate rejection. In addition, you should watch for vascularization forming along sutures. Such neovascularization increases the chances for rejection. (Generally, the patient will verbalize subjective complaints including foreign body sensation, light sensitivi- ty, or discomfort with a rejection episode; therefore, a careful history should be elicited on every exam.) Pterygium Injection following the removal of a pterygium may be quite marked. A subconjunctival hem- orrhage may also be present. Suture ends may be visible in the conjunctiva. Use fluorescein dye to evaluate for corneal staining (dry spots and superficial punctate keratopathy are common). There may be some corneal edema and striae (1+ to 2+) during the early postoperative period. A 106 Chapter 7 Figure 7-1. One day following pen- etrating keratoplasty. (Photo by Val Sanders.) mild anterior chamber reaction (1+) may also occur. If a conjunctival graft is used, the borders of the graft should meet the borders of the defect. Redness may persist for several weeks. Watch for the formation of a dellen (shallow, scooped- out excavation near the limbus) or scleral thinning. Note any corneal scarring. The presence of new vessels at the limbal excision site may indicate the early stages of recurrence. Refractive Surgery Incisional refractive surgery is rarely performed for the correction of myopia at this time. The clinician will, however, encounter patients who underwent this procedure in the past. Upon slit lamp examination, one should notice milky thin radial incisions in the anterior to mid stroma (Figure 7-2). Once healed, they should not stain. Today, some surgeons still correct astigmatism with a form of AK (astigmatic keratectomy, Figure 7-3), using either limbal or corneal relaxing incisions. The most common reason for this surgery is to reduce astigmatism at the time of cataract surgery. It may also be performed when laser vision correction is planned and when the patient's astigmatism is greater than the amount approved by the FDA for laser correction. AK incisions are superficial incisions placed parallel to the limbus at the steepest axis of plus cylin- der. When first performed, the incisions appear as thin lines of stain. They must be watched for infiltrates, but it is not abnormal to notice a granular appearance in the stroma around the inci- sions. These are white blood cells in the tissue but are insignificant if they are not organized into clumps or infiltrates. Excimer laser surgery is performed in two different manners. One is LASIK, which involves a cut corneal flap. The other includes surface treatments (PRK or LASEK), where there is either no flap or the epithelial cells are pushed aside and repositioned after the laser tissue ablation. The Postoperative Eye 107 Figure 7-2. Postoperative radial keratotomy. (Photo by Val Sanders.) When examining the patient who has undergone LASIK, one must carefully examine the flap. The flap looks like a circular slice of tissue with an edge left intact. Ideally, it should be difficult to visualize except at the juncture of the flap and the intact peripheral epithelium. The cut edges should be smooth and adhere to the rest of the corneal tissue. Immediate postoperative flap com- plications are wrinkles, debris under the flap, buttonhole (central thinning or hole), or shifted flap. A centrally grayish jagged area with a clearer center is indicative of a buttonhole or epithelial defect. Occasionally, a flap will become edematous. It will appear milky, and the edges will look lifted. In extreme cases, suturing may be necessary. When performing the slit lamp exam post LASIK, any irregularity in the epithelium should be noted. As the flap edges heal, one should watch for signs of infection or inflammation. A cen- tral haze is not uncommon after any type of excimer treatment, but one should examine the cornea carefully for signs of keratitis. There are two types of keratitis, infectious and toxic. Infectious keratitis can present as anything from mild corneal infiltrates to lamellar abscess formation in the interface. Diffuse lamellar keratitis (DLK) is a noninfectious inflammation that appears like "sand" at the flap interface. It is typically diffuse without extension into the stroma. As it wors- ens, the clumps of cells begin to look like waves or shifting sand dunes. Severe cases may result in flap melt. Epithelial ingrowth is a complication usually noted within the first few weeks after a LASIK enhancement, although it may occur after a first treatment as well (Figure 7-4). The appearance varies. It may appear as a clump of graying cells at the flap edge or a swirly pattern into the flap. Occasionally, small cysts or pearls develop. Almost all eyes become dry after LASIK, so they must be monitored for dry spots and punctate keratitis during the slit lamp exam. 108 Chapter 7 Figure 7-3. Astigmatic keratotomy surgery. (Photo by Val Sanders.) The slit lamp appearance of an eye having undergone a surface treatment is much different than what appears after LASIK. The epithelium is essentially gone after PRK and LASEK. The eye is protected with a bandage contact lens until re-epithelialization occurs. This generally takes 4 to 6 days. During this time, the epithelium is rough and irregular in appearance. One must watch for the appearance of corneal infiltrates and signs of infection during the first few days after surgery. Once the bandage lens is removed, the epithelium must be closely monitored for defects. A faint central stromal haze is usually present to some degree during the first few months after surgery (Figure 7-5) but generally clears by 6 months postoperatively. Glaucoma Surgical Trabeculectomy The slit lamp exam and tonometry are the two tests of concern following a surgical tra- beculectomy. Conjunctival injection may be mild to marked (1+ to 3+). There may be a subcon- junctival hemorrhage. The conjunctival drainage bleb will usually be large and at least slightly elevated. The suture line is usually superior under the upper cul de sac, so it may be difficult to The Postoperative Eye 109 Figure 7-4. Epithelial ingrowth follow- ing LASIK. (Photo by Val Sanders.) Figure 7-5. Mild anterior stromal haze following LASEK. (Photo by Val Sanders.) [...]... is not patent Indicate the location of the opening with a drawing or by describing it by the clock Watch for the formation of peripheral anterior synechiae Evaluate the lens for the presence of isolated opacities (these are permanent) The Postoperative Eye 111 Cataract There is more than one way to remove a cataract However, at the time of this writing, the use of phacoemulsification is most common... to check for iris atrophy Note the shape of the pupil Watch for formation of posterior synechia and cataract The Postoperative Eye TABLE 7-1 Postoperative Slit Lamp Examination Notes I Lid Surgery External Lid swelling Lid bruising Lid redness Skin sloughing Lid position Lash position Presence of a discharge Broken or missing sutures Wound gape Recurrence of lesion(s) Excessive, irregular scarring... watch the posterior capsule (behind the IOL) for the appearance of opacity If the patient complains of pain postoperatively (beyond the usual), evaluate carefully for corneal abrasion, corneal edema, and intraocular infection The eye recovers most of its normal appearance quickly over the first several postoperative days The remainder of recovery then takes place more slowly over the following weeks... strands of egg white Make a note regarding the pupil’s size and shape Check to see that the IOL is in place, if one was implanted If the IOL is placed properly, the slit lamp reflex visible on the IOL should be parallel to the plane of the iris You should not be able to see the haptics or the edge of a posterior chamber IOL (unless the pupil is dilated) Examine the IOL surface for the presence of precipitates... Corneal dry spots II Lacrimal Surgery External Lid swelling Lid redness Sutures Globe Tearing Discharge Silicone tube Corneal abrasion III Enucleation External Lid swelling Socket Conformer in place Conjunctival edema (2+ edema would be expected at first) Conjunctival injection (conjunctiva may look like a piece of raw meat at first) Presence of conjunctival prolapse (abnormal) Presence of discharge... chamber depth VI Pterygium Globe Injection Graft placement Corneal dry spots Corneal staining Corneal edema Striae Presence of sutures AC reaction Corneal scarring Presence of new vessels at limbus Dellen formation VII Radial or Astigmatic Keratotomy Globe Conjunctival injection Conjunctival edema Superficial keratitis Staining of incision sites Corneal edema Corneal infiltrates Anterior chamber reaction... Descemet’s membrane are not uncommon, perhaps up to 2+ Sometimes, a localized detachment of the endothelium occurs; the membrane balloons away from the cornea and toward the iris Most of these findings should disappear during the first 1 to 2 weeks after surgery There is generally some anterior chamber reaction, often from 1+ to 2+ Check chamber depth The chamber should be well formed and not flat Some... elevated and blisterlike (Figure 7-6 ) If not, be sure to note that it is flat Sometimes a bleb becomes lumpy, cystic, or encapsulated in appearance Be sure to note if the bleb begins to encroach onto the cornea Be on the alert for dellen Watch the AC for depth and inflammation as well as for formation of anterior or posterior synechia Check the lens for formation of a cataract Laser Trabeculoplasty... Bandage contact lens Coverage Movement Re-epithelialization Flap irregularities (if LASIK) Postoperative Eye TABLE 7-1 (continued) Postoperative Slit Lamp Examination Notes VIII Excimer Laser (Continued) Corneal haze Corneal infiltrates/inflammation Recurrent corneal erosion IX Surgical Trabeculectomy Globe Conjunctival injection Subconjunctival hemorrhage Appearance of drainage bleb Corneal edema Corneal...110 Chapter 7 Figure 7-6 Filtration bleb (Photo by Val Sanders.) visualize (have the patient look way down) There may be mild corneal edema and/or folds (1+) There is generally a marked anterior chamber reaction of 2+ to 3+ You should also note the chamber depth Immediately after surgery, it is normal for the chamber . account for some of the redness. Make a note of any conjunctival wound gape. A very mild mucus dis- charge is normal. The appearance of choroidal pigment is abnormal and indicates a scleral per- foration should be considered as early signs of rejec- tion. The endothelium should be examined for any signs of keratitic precipitates or a linear bor- der (rejection line) of whitish or pigmented opacities. signs of infection or inflammation. A cen- tral haze is not uncommon after any type of excimer treatment, but one should examine the cornea carefully for signs of keratitis. There are two types of